System, Method, and Computer Program Product for Updating and Processing Payment Device Transaction Tokens

ABSTRACT

Described are a system, method, and computer program product for updating and processing payment device transaction tokens. The method includes receiving a first notification based on issuance of a first new payment device, generating a first new token associated with the first new payment device, and linking the first new token to a previous token. The method also includes receiving a second notification based on issuance of a second new payment device, generating a second new token associated with the second new payment device, and linking the second new token to the first new token in a chain. The method further includes determining to deactivate the first new payment device and modifying the chain to remove the first new token. The method further includes receiving a transaction request and processing the transaction request by communicating second new token to an issuer.

CROSS-REFERENCE TO RELATED APPLICATION

This application is a continuation of U.S. patent application Ser. No.16/278,385, filed Feb. 18, 2019, titled “System, Method, and ComputerProgram Product for Updating and Processing Payment Device TransactionTokens”, the entire disclosure of which is incorporated by referenceherein.

BACKGROUND Technical Field

This disclosure relates generally to payment device tokenization and, insome embodiments or aspects, to a system, method, and computer programproduct for generating, storing, and processing new payment devicetokens in relation to old payment device tokens.

Technical Considerations

When a payment device is used to complete a transaction with a merchant,or is identified as a primary method of payment for a merchant, a tokencorresponding to the payment device may be created and saved in adatabase of the merchant. A token corresponding to a payment device mayalso be created for any entity or computing device configured to store apayment device identifier to facilitate transactions. For recurringtransactions with a merchant or other token holder, the token may beused to automatically complete the transactions without an accountholder individually authorizing each transaction with the paymentdevice. Over time, a number of token holders may each be assigned theirown unique token corresponding to the payment device. While generatingand assigning tokens to token holders may simplify transactions in somecircumstances, technical complications may occur from events where theold tokens must be replaced with new tokens. For example, a new paymentdevice may be issued to an account holder because of updated securityprotocols. It is computationally and communicatively inefficient for theaccount holder or a token generation system to identify and notify orupdate each token holder to purge or replace old tokens with new tokens.Moreover, if a token holder is not notified or the prior token assignedto the token holder is not updated, in prior art systems, then tokenholders may continue to attempt to complete transactions using oldtokens that are now non-functioning. Failed transactions with outdatedtokens may generate computer processing errors, and with respect to theaccount holder, may incur penalties for missed payments.

Therefore, there is a need in the art for a system and method ofreplacing or updating payment devices or payment-device tokens withoutthe requirement of identifying, notifying, and updating tokens of eachtoken holder. There is a further need in the art for such a technicalsolution to be resilient and functional over multiple token/paymentdevice updates.

SUMMARY

Accordingly, and generally, provided is an improved system, method, andcomputer program product for updating and processing payment devicetransaction tokens. Preferably, provided is a system, method, andcomputer program product for receiving an update request to updatestored transaction information, the update request identifying an oldpayment device and a new payment device. Preferably, provided is asystem, method, and computer program product for generating a new tokenassociated with the new payment device, and linking the new token to anold token. Preferably, provided is a system, method, and computerprogram product for receiving a transaction request including the oldtoken, and communicating the new token that is linked to the old tokento an issuer for processing the transaction request.

According to non-limiting embodiments or aspects, provided is acomputer-implemented method for updating and processing payment devicetransaction tokens. The method includes (a) receiving, with at least oneprocessor, an update request to update stored transaction information.The update request identifies at least one old payment device and atleast one new payment device. The method also includes (b) generating,with at least one processor, at least one new token associated with theat least one new payment device. The method further includes (c)linking, with at least one processor and in at least one database, theat least one new token to at least one old token. The method furtherincludes (d) receiving, with at least one processor, a transactionrequest including the at least one old token. The method furtherincludes (e) communicating, with at least one processor, the at leastone new token that is linked to the at least one old token to an issuerfor processing of the transaction request.

In further non-limiting embodiments or aspects, the method may includemodifying, with at least one processor, a status of the at least one oldtoken associated with the at least one old payment device to prevent theat least one old token from being communicated to issuers. The methodmay further include repeating steps (a)-(c) for a plurality of updaterequests, thereby linking three or more tokens in a chain, wherein atoken generated in response to a most recent update request of theplurality of update requests is communicated to an issuer whenprocessing the transaction request including any of the three or moretokens in the chain.

In further non-limiting embodiments or aspects, the at least one oldtoken may include a plurality of old tokens, step (b) may includegenerating, with at least one processor, the at least one new token foreach old token, and step (c) may include linking, with at least oneprocessor and in the at least one database, the at least one new tokento each old token. Each of the at least one new token may be unique.

In further non-limiting embodiments or aspects, the method may includereceiving, with at least one processor, a notification of fraudulentactivity associated with the at least one old payment device. The methodmay also include modifying, with at least one processor and in at leastone database, storage of the at least one new token to deactivate a linkto the at least one old token. The method may further include declining,with at least one processor, new transaction requests including the atleast one old token.

In further non-limiting embodiments or aspects, the method may includereceiving, with at least one processor, a notification of fraudulentactivity associated with the at least one new payment device. The methodmay also include modifying, with at least one processor, a status of theat least one new token associated with the at least one new paymentdevice to prevent the at least one new token from being communicated toissuers. The method may further include declining, with at least oneprocessor, new transaction requests including the at least one old tokenand/or the at least one new token.

According to non-limiting embodiments or aspects, provided is a systemfor updating and processing payment device transaction tokens. Thesystem includes a server including at least one processor for executingprogram instructions. The server is programmed and/or configured to (a)receive an update request to update stored transaction information. Theupdate request identifies at least one old payment device and at leastone new payment device. The server is also programmed and/or configuredto (b) generate at least one new token associated with the at least onenew payment device. The server is further programmed and/or configuredto (c) link, in at least one database, the at least one new token to atleast one old token. The server is further programmed and/or configuredto (d) receive a transaction request including the at least one oldtoken. The server is further programmed and/or configured to (e)communicate the at least one new token that is linked to the at leastone old token to an issuer for processing of the transaction request.

In further non-limiting embodiments or aspects, the server may beprogrammed and/or configured to modify a status of the at least one oldtoken associated with the at least one old payment device to prevent theat least one old token from being communicated to issuers. The servermay be further programmed and/or configured to repeat steps (a)-(c) fora plurality of update requests, thereby linking three or more tokens ina chain, wherein a token generated in response to a most recent updaterequest of the plurality of update requests is communicated to an issuerwhen processing the transaction request including any of the three ormore tokens in the chain.

In further non-limiting embodiments or aspects, the at least one oldtoken may include a plurality of old tokens, step (b) may includegenerating the at least one new token for each old token, and step (c)may include linking, in the at least one database, the at least one newtoken to each old token. Each of the at least one new token may beunique.

In further non-limiting embodiments or aspects, the server may beprogrammed and/or configured to receive a notification of fraudulentactivity associated with the at least one old payment device. The servermay also be programmed and/or configured to modify, in at least onedatabase, storage of the at least one new token to deactivate a link tothe at least one old token. The server may further be programmed and/orconfigured to decline new transaction requests including the at leastone old token.

In further non-limiting embodiments or aspects, the server may beprogrammed and/or configured to receive a notification of fraudulentactivity associated with the at least one new payment device. The servermay also be programmed and/or configured to modify a status of the atleast one new token associated with the at least one new payment deviceto prevent the at least one new token from being communicated toissuers. The server may further be programmed and/or configured todecline new transaction requests including the at least one old tokenand/or the at least one new token.

According to non-limiting embodiments or aspects, provided is a computerprogram product for updating and processing payment device transactiontokens. The computer program product includes at least onenon-transitory computer-readable medium including program instructionsthat, when executed by at least one processor, cause the at least oneprocessor to (a) receive an update request to update stored transactioninformation. The update request identifies at least one old paymentdevice and at least one new payment device. The program instructionsfurther cause the at least one processor to (b) generate at least onenew token associated with the at least one new payment device. Theprogram instructions further cause the at least one processor to (c)link, in at least one database, the at least one new token to at leastone old token. The program instructions further cause the at least oneprocessor to (d) receive a transaction request including the at leastone old token. The program instructions further cause the at least oneprocessor to (e) communicate the at least one new token that is linkedto the at least one old token to an issuer for processing of thetransaction request.

In non-limiting embodiments or aspects, the program instructions maycause the at least one processor to modify a status of the at least oneold token associated with the at least one old payment device to preventthe at least one old token from being communicated to issuers. Theprogram instructions may further cause the at least one processor torepeat steps (a)-(c) for a plurality of update requests, thereby linkingthree or more tokens in a chain, wherein a token generated in responseto a most recent update request of the plurality of update requests iscommunicated to an issuer when processing the transaction requestincluding any of the three or more tokens in the chain.

In non-limiting embodiments or aspects, the at least one old token mayinclude a plurality of old tokens, step (b) may include generating theat least one new token for each old token, and step (c) may includelinking, in the at least one database, the at least one new token toeach old token, wherein each of the at least one new token is unique.

In non-limiting embodiments or aspects, the program instructions maycause the at least one processor to receive a notification of fraudulentactivity associated with the at least one old payment device. Theprogram instructions may also cause the at least one processor tomodify, in at least one database, storage of the at least one new tokento deactivate a link to the at least one old token. The programinstructions may further cause the at least one processor to decline newtransaction requests including the at least one old token.

In non-limiting embodiments or aspects, the program instructions maycause the at least one processor to receive a notification of fraudulentactivity associated with the at least one new payment device. Theprogram instructions may also cause the at least one processor to modifya status of the at least one new token associated with the at least onenew payment device to prevent the at least one new token from beingcommunicated to issuers. The program instructions may further cause theat least one processor to decline new transaction requests including theat least one old token and/or the at least one new token.

Other non-limiting embodiments or aspects of the present disclosure willbe set forth in the following numbered clauses:

Clause 1: A computer-implemented method for updating and processingpayment device transaction tokens, the method comprising: (a) receiving,with at least one processor, an update request to update storedtransaction information, the update request identifying at least one oldpayment device and at least one new payment device; (b) generating, withat least one processor, at least one new token associated with the atleast one new payment device; (c) linking, with at least one processorand in at least one database, the at least one new token to at least oneold token; (d) receiving, with at least one processor, a transactionrequest comprising the at least one old token; and (e) communicating,with at least one processor, the at least one new token that is linkedto the at least one old token to an issuer for processing of thetransaction request.

Clause 2: The method of clauses 1, further comprising modifying, with atleast one processor, a status of the at least one old token associatedwith the at least one old payment device to prevent the at least one oldtoken from being communicated to issuers.

Clause 3: The method of clauses 1 or 2, further comprising repeatingsteps (a)-(c) for a plurality of update requests, thereby linking threeor more tokens in a chain, wherein a token generated in response to amost recent update request of the plurality of update requests iscommunicated to an issuer when processing the transaction requestcomprising any of the three or more tokens in the chain.

Clause 4: The method of any of clauses 1-3, wherein the at least one oldtoken comprises a plurality of old tokens, step (b) further comprisesgenerating, with at least one processor, the at least one new token foreach old token, and step (c) further comprises linking, with at leastone processor and in the at least one database, the at least one newtoken to each old token.

Clause 5: The method of any of clauses 1-4, wherein each of the at leastone new token is unique.

Clause 6: The method of any of clauses 1-5, further comprising:receiving, with at least one processor, a notification of fraudulentactivity associated with the at least one old payment device; modifying,with at least one processor and in at least one database, storage of theat least one new token to deactivate a link to the at least one oldtoken; and declining, with at least one processor, new transactionrequests comprising the at least one old token.

Clause 7: The method of any of clauses 1-6, further comprising:receiving, with at least one processor, a notification of fraudulentactivity associated with the at least one new payment device; modifying,with at least one processor, a status of the at least one new tokenassociated with the at least one new payment device to prevent the atleast one new token from being communicated to issuers; and declining,with at least one processor, new transaction requests comprising the atleast one old token and/or the at least one new token.

Clause 8: A system for updating and processing payment devicetransaction tokens, the system comprising a server including at leastone processor for executing program instructions, the server beingprogrammed and/or configured to: (a) receive an update request to updatestored transaction information, the update request identifying at leastone old payment device and at least one new payment device; (b) generateat least one new token associated with the at least one new paymentdevice; (c) link, in at least one database, the at least one new tokento at least one old token; (d) receive a transaction request comprisingthe at least one old token; and (e) communicate the at least one newtoken that is linked to the at least one old token to an issuer forprocessing of the transaction request.

Clause 9: The system of clauses 8, wherein the server is furtherprogrammed and/or configured to modify a status of the at least one oldtoken associated with the at least one old payment device to prevent theat least one old token from being communicated to issuers.

Clause 10: The system of clauses 8 or 9, wherein the server is furtherprogrammed and/or configured to repeat steps (a)-(c) for a plurality ofupdate requests, thereby linking three or more tokens in a chain,wherein a token generated in response to a most recent update request ofthe plurality of update requests is communicated to an issuer whenprocessing the transaction request comprising any of the three or moretokens in the chain.

Clause 11: The system of any of clauses 8-10, wherein the at least oneold token comprises a plurality of old tokens, step (b) furthercomprises generating the at least one new token for each old token, andstep (c) further comprises linking, in the at least one database, the atleast one new token to each old token.

Clause 12: The system of any of clauses 8-11, wherein each of the atleast one new token is unique.

Clause 13: The system of any of clauses 8-12, wherein the server isfurther programmed and/or configured to: receive a notification offraudulent activity associated with the at least one old payment device;modify, in at least one database, storage of the at least one new tokento deactivate a link to the at least one old token; and decline newtransaction requests comprising the at least one old token.

Clause 14: The system of any of clauses 8-13, wherein the server isfurther programmed and/or configured to: receive a notification offraudulent activity associated with the at least one new payment device;modify a status of the at least one new token associated with the atleast one new payment device to prevent the at least one new token frombeing communicated to issuers; and decline new transaction requestscomprising the at least one old token and/or the at least one new token.

Clause 15: A computer program product for updating and processingpayment device transaction tokens, the computer program productcomprising at least one non-transitory computer-readable mediumincluding program instructions that, when executed by at least oneprocessor, cause the at least one processor to: (a) receive an updaterequest to update stored transaction information, the update requestidentifying at least one old payment device and at least one new paymentdevice; (b) generate at least one new token associated with the at leastone new payment device; (c) link, in at least one database, the at leastone new token to at least one old token; (d) receive a transactionrequest comprising the at least one old token; and (e) communicate theat least one new token that is linked to the at least one old token toan issuer for processing of the transaction request.

Clause 16: The computer program product of clauses 15, wherein theprogram instructions further cause the at least one processor to modifya status of the at least one old token associated with the at least oneold payment device to prevent the at least one old token from beingcommunicated to issuers.

Clause 17: The computer program product of clauses 15 or 16, wherein theprogram instructions further cause the at least one processor to repeatsteps (a)-(c) for a plurality of update requests, thereby linking threeor more tokens in a chain, wherein a token generated in response to amost recent update request of the plurality of update requests iscommunicated to an issuer when processing the transaction requestcomprising any of the three or more tokens in the chain.

Clause 18: The computer program product of any of clauses 15-17, whereinthe at least one old token comprises a plurality of old tokens, step (b)further comprises generating the at least one new token for each oldtoken, and step (c) further comprises linking, in the at least onedatabase, the at least one new token to each old token, wherein each ofthe at least one new token is unique.

Clause 19: The computer program product of any of clauses 15-18, whereinthe program instructions further cause the at least one processor to:receive a notification of fraudulent activity associated with the atleast one old payment device; modify, in at least one database, storageof the at least one new token to deactivate a link to the at least oneold token; and decline new transaction requests comprising the at leastone old token.

Clause 20: The computer program product of any of clauses 15-19, whereinthe program instructions further cause the at least one processor to:receive a notification of fraudulent activity associated with the atleast one new payment device; modify a status of the at least one newtoken associated with the at least one new payment device to prevent theat least one new token from being communicated to issuers; and declinenew transaction requests comprising the at least one old token and/orthe at least one new token.

These and other features and characteristics of the present disclosure,as well as the methods of operation and functions of the relatedelements of structures and the combination of parts and economies ofmanufacture, will become more apparent upon consideration of thefollowing description and the appended claims with reference to theaccompanying drawings, all of which form a part of this specification,wherein like reference numerals designate corresponding parts in thevarious figures. It is to be expressly understood, however, that thedrawings are for the purpose of illustration and description only andare not intended as a definition of the limits of the presentdisclosure. As used in the specification and the claims, the singularform of “a,” “an,” and “the” include plural referents unless the contextclearly dictates otherwise.

BRIEF DESCRIPTION OF THE DRAWINGS

Additional advantages and details of the disclosure are explained ingreater detail below with reference to the exemplary embodiments oraspects that are illustrated in the accompanying schematic figures, inwhich:

FIG. 1 is a schematic diagram of embodiments or aspects of a system forupdating and processing payment device transaction tokens;

FIG. 2 is a schematic diagram of embodiments or aspects of a system forupdating and processing payment device transaction tokens;

FIG. 3 is a process diagram of embodiments or aspects of a system forupdating and processing payment device transaction tokens;

FIG. 4 is a process diagram of embodiments or aspects of a system forupdating and processing payment device transaction tokens; and

FIG. 5 is a process diagram of embodiments or aspects of a system forupdating and processing payment device transaction tokens.

DETAILED DESCRIPTION

For purposes of the description hereinafter, the terms “end,” “upper,”“lower,” “right,” “left,” “vertical,” “horizontal,” “top,” “bottom,”“lateral,” “longitudinal,” and derivatives thereof shall relate to theembodiments as they are oriented in the drawing figures. However, it isto be understood that the illustrated embodiments are not to beinterpreted as limiting and may assume various alternative variationsand step sequences, except where expressly specified to the contrary. Itis also to be understood that the specific devices and processesillustrated in the attached drawings, and described in the followingspecification, are simply exemplary embodiments or aspects of thepresent disclosure. Hence, specific dimensions and other physicalcharacteristics related to the embodiments or aspects of the embodimentsdisclosed herein are not to be considered as limiting unless otherwiseindicated.

No aspect, component, element, structure, act, step, function,instruction, and/or the like used herein should be construed as criticalor essential unless explicitly described as such. Also, as used herein,the articles “a” and “an” are intended to include one or more items andmay be used interchangeably with “one or more” and “at least one.”Furthermore, as used herein, the term “set” is intended to include oneor more items (e.g., related items, unrelated items, a combination ofrelated and unrelated items, etc.) and may be used interchangeably with“one or more” or “at least one.” Where only one item is intended, theterm “one” or similar language is used. Also, as used herein, the terms“has,” “have,” “having,” or the like are intended to be open-endedterms. Further, the phrase “based on” is intended to mean “based atleast partially on” unless explicitly stated otherwise.

Some non-limiting embodiments or aspects are described herein inconnection with thresholds. As used herein, satisfying a threshold mayrefer to a value being greater than, greater than or equal to, lessthan, less than or equal to, or equal to the threshold.

As used herein, the term “communicate” may refer to the reception,receipt, transmission, transfer, provision, and/or the like ofinformation (e.g., data, signals, messages, instructions, commands,and/or the like). As an example, for one unit (e.g., a device, a system,a component of a device or system, combinations thereof, and/or thelike) to communicate with another unit means that the one unit is ableto directly or indirectly receive information from and/or transmitinformation to the other unit. The one unit may communicate with theother unit even though the information may be modified, processed,relayed, and/or routed between the one unit and the other unit. In oneexample, a first unit may communicate with a second unit even though thefirst unit receives information and does not communicate information tothe second unit. As another example, a first unit may communicate with asecond unit if an intermediary unit (e.g., a third unit located betweenthe first unit and the second unit) receives information from the firstunit, processes the information received from the first unit to produceprocessed information, and communicates the processed information to thesecond unit. In some non-limiting embodiments or aspects, a message mayrefer to a packet (e.g., a data packet, a network packet, and/or thelike) that includes data.

As used herein, the term “transaction service provider” may refer to anentity that receives transaction authorization requests from merchantsor other entities and provides guarantees of payment, in some casesthrough an agreement between the transaction service provider and anissuer. For example, a transaction service provider may include apayment network, such as Visa®, MasterCard®, American Express®, or anyother entity that processes transactions. As used herein “transactionservice provider system” may refer to one or more systems operated by oroperated on behalf of a transaction service provider, such as atransaction service provider system executing one or more softwareapplications associated with the transaction service provider. In somenon-limiting embodiments or aspects, a transaction service providersystem may include one or more servers operated by or operated on behalfof a transaction service provider.

As used herein, the term “issuer” may refer to one or more entities thatprovide one or more accounts (e.g., a credit account, a debit account, acredit card account, a debit card account, and/or the like) to a user(e.g., customer, consumer, and/or the like) for conducting transactions(e.g., payment transactions). For example, an issuer may provide anaccount identifier, such as a primary account number (PAN), to a userthat uniquely identifies one or more accounts associated with the user.The account identifier may be used by the user to conduct a paymenttransaction. In some non-limiting embodiments or aspects, an issuer maybe associated with a bank identification number (BIN) that uniquelyidentifies the issuer. As used herein “issuer system” may refer to oneor more systems operated by or operated on behalf of an issuer. Forexample, an issuer system may refer to a server executing one or moresoftware applications associated with the issuer. In some non-limitingembodiments or aspects, an issuer system may include one or more servers(e.g., one or more authorization servers) for authorizing a paymenttransaction.

As used herein, the term “merchant” may refer to an individual or entitythat provides goods and/or services, or access to goods and/or services,to customers based on a transaction, such as a payment transaction. Theterm “merchant” or “merchant system” may also refer to one or morecomputer systems operated by or on behalf of a merchant, such as aserver computer executing one or more software applications. The terms“point-of-sale system,” “POS system,” or “POS terminal,” as used herein,may refer to one or more computers and/or peripheral devices used by amerchant to engage in payment transactions with customers, including oneor more card readers, near-field communication (NFC) receivers,radio-frequency identification (RFID) receivers, and/or othercontactless transceivers or receivers, contact-based receivers, paymentterminals, computers, servers, input devices, and/or other like devicesthat can be used to initiate a payment transaction. A POS terminal maybe located proximal to a user, such as at a physical store location, ora POS terminal may be remote from the user, such as a server interactingwith a user browsing on their personal computer. POS terminals mayinclude mobile devices.

As used herein, the term “account identifier” may refer to one or moretypes of identifiers associated with an account (e.g., a uniqueidentifier of an account, an account number, a PAN, a card number, apayment card number, a token, and/or the like) of a user. In somenon-limiting embodiments or aspects, an issuer may provide an accountidentifier to a user that uniquely identifies one or more accountsassociated with that user. In some non-limiting embodiments or aspects,an account identifier may be embodied on a payment device (e.g., apayment card, a credit card, a debit card, and/or the like) and/or maybe electronic information communicated to the user that the user may usefor electronic payment transactions. In some non-limiting embodiments oraspects, an account identifier may be an original account identifier,where the original account identifier was provided to a user at thecreation of the account associated with the account identifier. In somenon-limiting embodiments or aspects, the account identifier may be anaccount identifier (e.g., a supplemental account identifier) that isprovided to a user after the original account identifier was provided tothe user. For example, if the original account identifier is forgottenby the user, stolen from the user, and/or the like, a supplementalaccount identifier may be provided to the user. In some non-limitingembodiments or aspects, an account identifier may be directly orindirectly associated with an issuer such that an account identifier maybe a token that maps to a PAN or other type of identifier. Accountidentifiers may be alphanumeric, any combination of characters and/orsymbols, and/or the like.

As used herein, the term “computing device” may refer to one or moreelectronic devices that include one or more processors. A computingdevice may be a stationary computer or a mobile device. As an example, amobile device may include a cellular phone (e.g., a smartphone orstandard cellular phone), a portable computer, a wearable device (e.g.,watches, glasses, lenses, clothing, and/or the like), a personal digitalassistant (PDA), and/or other like devices. A computing device may alsoinclude components to send, receive, and/or process data, such as butnot limited to memory, a display device, an input device, a networkinterface, and/or the like.

As used herein, the term “payment device” may refer to a payment card,such as a credit card, a debit card, a charge card, a gift card, apayroll card, and/or the like, associated with an account identifier ofa payment account. In some non-limiting embodiments or aspects, apayment device may include an electronic payment device, such as asmartcard, a chip card, integrated circuit card, and/or the like. Anelectronic payment device may include an embedded integrated circuit andthe embedded integrated circuit may include a data storage medium (e.g.,volatile and/or non-volatile memory) to store information associatedwith the payment device, such as an account identifier, a name of theaccount holder, and/or the like.

As used herein, the term “payment device token” may refer to anidentifier that is used as a substitute or replacement identifier for apayment device identifier, such as a credit card number. A paymentdevice token may be used as a substitute or replacement identifier foran account identifier, such as a PAN. Payment device tokens may beassociated with an account identifier or other payment deviceidentifiers in one or more data structures (e.g., one or more databasesand/or the like) such that they may be used to conduct a transactionwithout directly using the original payment device identifier. In somenon-limiting embodiments or aspects, an original payment deviceidentifier may be associated with a plurality of payment device tokensfor different individuals or purposes. One or more payment device tokensmay be assigned to and/or stored by one or more token holders, e.g.,entities and/or devices configured to store one or more payment devicetokens to facilitate one or more transactions, either temporarily orindefinitely, for one or more concurrent or future transactions. Tokenholders may include, but are not limited to, merchants, network-enableddevices (e.g., smart refrigerators, in-home personal assistant hubs,smart cars, etc.), loan servicers, utility providers, and/or the like.Payment device tokens may be unique to each token holder.

As used herein, the term “server” may refer to or include one or moreprocessors or computers, storage devices, or similar computerarrangements that are operated by or facilitate communication andprocessing for multiple parties in a network environment, such as theInternet, although it will be appreciated that communication may befacilitated over one or more public or private network environments andthat various other arrangements are possible. Reference to “a server” or“a processor,” as used herein, may refer to a previously-recited serverand/or processor that is recited as performing a previous step orfunction, a different server and/or processor, and/or a combination ofservers and/or processors. For example, as used in the specification andthe claims, a first server and/or a first processor that is recited asperforming a first step or function may refer to the same or differentserver and/or a processor recited as performing a second step orfunction.

As used herein, the term “system” may refer to one or more devices, suchas one or more processors, servers, and computing devices that includesoftware applications, and/or the like.

As used herein, the term “mobile device” may refer to one or moreportable electronic devices configured to communicate with one or morenetworks. As an example, a mobile device may include a cellular phone(e.g., a smartphone or standard cellular phone), a portable computer(e.g., a tablet computer, a laptop computer, etc.), a wearable device(e.g., a watch, pair of glasses, lens, clothing, and/or the like), apersonal digital assistant (PDA), and/or other like devices. The term“client device,” as used herein, refers to any electronic device that isconfigured to communicate with one or more servers or remote devicesand/or systems. A client device may include a mobile device, anetwork-enabled appliance (e.g., a network-enabled television,refrigerator, thermostat, and/or the like), a computer, a POS system,and/or any other device or system capable of communicating with anetwork. A client device may further include a desktop computer, laptopcomputer, mobile computer (e.g., smartphone), a wearable computer (e.g.,a watch, pair of glasses, lens, clothing, and/or the like), a cellularphone, a network-enabled appliance (e.g., a network-enabled television,refrigerator, thermostat, and/or the like), a point of sale (POS)system, and/or any other device, system, and/or software applicationconfigured to communicate with a remote device or system.

Non-limiting embodiments or aspects of the present disclosure aredirected to a system, method, and computer program product for updatingand processing payment device transaction tokens. Described systems andmethods improve over prior art systems by reducing the number ofcomputational steps required to update payment-device tokens, while alsoeliminating the technical steps of notifying each token-assignedmerchant of token updates and pushing new tokens to each merchant.Moreover, activating new payment devices and generating new tokens doesnot interrupt the operation of an ongoing token-transaction system,therefore eliminating potential merchant connectivity downtime due topushing new tokens to each token-assigned merchant. Additionally,computational or transaction errors created by merchants committingtransaction authorization requests with outdated tokens are reduced inthe systems and methods described herein. Further, described systems andmethods provide operational resilience by allowing for multiplegenerations of token updates, while still allowing merchants havingdisparate token generations to continue to engage with the transactionprocessing system. Further improvements and advantages of the presentdisclosure are described in detail below.

With specific reference to FIG. 1, and in non-limiting embodiments oraspects, provided is a system 100 for updating and processing paymentdevice transaction tokens. The system 100 includes a user 102 having anold payment device 104 to be replaced by a new payment device 106. Theold payment device 104 and the new payment device 106 are issued by atleast one issuer 107 having at least one issuer system 108, which mayhave one or more servers. The issuer system 108 may be communicativelyconnected to an account database 110, wherein user account data isstored, such as payment device data, active payment device token(s),user name, user birth date, user social security number, user address,account number, account balance, transaction history, and/or the like.When a user 102 engages in a transaction with a merchant, such as withthe old payment device 104, a payment device identifier is provided tothe merchant and communicated to a transaction service provider system,which communicates with the issuer system 108 to complete thetransaction with the merchant. A payment device token may be used as apayment device identifier to complete transactions. At an initial state,where the new payment device 106 has not been issued yet, at least oneold payment device token corresponds to an old payment device 104, andone or more token holders 112 may be assigned and/or store an oldpayment device token associated with the old payment device 104. Eachtoken holder 112 may be assigned and/or store a unique old paymentdevice token.

With further reference to FIG. 1, and in further non-limitingembodiments or aspects, before the old payment device 104 is replaced bythe new payment device 106, token holders 112 may complete transactionswith/for the user 102 using old payment device tokens, by communicatingan old payment device token to a token management server 114 and/ortransaction service provider system 115. The token management server 114may be associated with a transaction service provider system 115 of atransaction service provider (e.g., the token management server 114 maybe integral to the transaction service provider system 115, the tokenmanagement server 115 may be communicatively connected to thetransaction service provider system 115, and/or the like). An oldpayment device token may be communicated to the token management server114 from a token holder 112, directly or indirectly via the transactionservice provider system 115. For example, the token holder 112 maycommunicate a request to complete a transaction including an old paymenttoken to a transaction service provider system 115, which may use thetoken management server 114 to verify that the old payment token is themost-up-to-date token for the given user's 102 payment device and thegiven token holder 112. The token management server 114 iscommunicatively connected to a token database 116, which may include atoken map 118. The token map 118 may be a data structure that includesdata of payment device tokens, which may be stored in relation to eachother, payment devices, and/or token holders. Prior to replacement ofthe old payment device 104, the token map 118 may indicate the oldpayment device token as the most up-to-date token.

With further reference to FIG. 1, and in further non-limitingembodiments or aspects, prior to replacement of the old payment device104, the token management server 114 or the transaction service providersystem 115 may communicate a transaction authorization request (e.g., inresponse to a token holder's 112 transaction request) to an issuersystem 108 of an issuer 107 of the old payment device 104. Thetransaction authorization request may include the most up-to-datepayment device token for a token holder 112, which prior to replacementof the old payment device 104 may be the old payment device token. Thetransaction authorization request may also include another paymentdevice identifier, in addition to or in substitution for a paymentdevice token. The issuer system 108 may then complete the transaction byverifying the request with account data from the account database 110,such as to correspond the old payment device 104 with the old paymentdevice token or other payment device identifier. For example, a tokenholder 112 may be a utility provider for the user 102, and the tokenholder 112 may use an old payment device token to initiate an automaticutility bill payment. The transaction service provider system 115 mayreceive the request, identify the old payment device token by the tokenmanagement server 114 as the most up-to-date, and communicate with theissuer system 108 to debit an account of the user 102 and credit anaccount of the utility provider.

With further reference to FIG. 1, and in further non-limitingembodiments or aspects, a number of steps are executed in the system 100when the old payment device 104 is replaced by a new payment device 106.For one, the issuer system 108 communicates with the user 102 to replacethe old payment device 104 (e.g., update the old payment device 104 toeffectively become a new payment device 106, physically issue a newpayment device 106, and/or the like), thereby providing the user 102with a new payment device 106 that supersedes/replaces the old paymentdevice 104. The issuer system 108, a token holder 112, or another entitymay communicate with the token management server 114 an update requestto update the stored transaction information, e.g., the token map 118.The token management server 114 may then generate one or more newpayment device tokens associated with the new payment device 106. Thetoken management server 114 may link one or more new payment devicetokens to one or more old payment device tokens in the token map 118 ofthe token database 116, e.g., by pointer, by reference, by storage in asame data structure, and/or the like. For example, the token managementserver 114 may have three old payment device tokens stored correspondingto the old payment device 104 for three token holders 112, e.g., autility provider, an online merchant, and an in-home personal assistanthub. The token management server 114 may generate a new payment devicetoken for each old payment device token of the token holders 112, andlink each new payment device token to its corresponding old paymentdevice token.

With further reference to FIG. 1, and in further non-limitingembodiments or aspects, token holders 112 may not be notified of thereplacement of the old payment device 104 with the new payment device106. Because a token holder 112 may not be notified that the old paymentdevice 104 has been replaced, a token holder 112 may still communicatewith a token management server 114 or transaction service providersystem 115 to request a transaction to be completed using an old paymentdevice token. The token management server 114 may receive the requesthaving the old payment device token and identify a corresponding newpayment device token that is linked to the old payment device token inthe token map 118. If there have been multiple payment devicereplacements, the links between tokens may be more than one (e.g.,stored in a series configuration, such as the oldest token linked to thenext oldest token, linked to the next oldest token, linked to the newesttoken; further examples are provided in connection with FIG. 2). Inresponse to receiving a request from a token holder 112 having anoutdated payment device token, the token management server 114 maycommunicate the new payment device token to the requesting token holder112 to prevent repeated requests with the old payment device token.

With further reference to FIG. 1, and in further non-limitingembodiments or aspects, because the token management server 114 isconfigured to identify the active new payment device token via one ormore links to an old payment device token, the token management server114 or the transaction service provider system 115 may complete theoriginally requested transaction of the token holder 112 bycommunicating a transaction authorization request having the new paymentdevice token and/or another identifier of the new payment device to theissuer system 108. In this manner, it is not necessary to identify andnotify all token holders 112 at the time of updating payment devicetokens, because old payment device tokens may still be used to identifythe new payment device token for processing of the requestedtransaction. It will further be appreciated that payment device tokensmay be regenerated/updated without a new payment device having beenissued. The same methods of generating a new token, linking the newtoken to the old token and processing incoming transactions of the oldtoken by the link to the new token, may be conducted even without thereplacement of an old payment device with a new payment device.

With further reference to FIG. 1, and in further non-limitingembodiments or aspects, it will be appreciated that payment devicetokens stored by token holders 112 may not directly correspond to tokensstored by an issuer system 108. For example, a number of payment devicetokens stored by a number of token holders 112 may correspond to a samepayment device token stored by an issuer system 108, such that when apayment device token of a token holder 112 is received by an issuersystem 108, a corresponding payment device token is identified in theaccount database 110. Still more, the issuer system 108 mayalternatively not store payment device tokens but may rely on thetransaction service provider system 115 to identify the most up-to-datepayment device token as stored in the token map 118 and parse orcorrespond the payment device token to a different payment deviceidentifier, which may then be provided to the issuer system 108 fortransaction processing.

With further reference to FIG. 1, and with specific reference to FIG. 2,in non-limiting embodiments or aspects, for a token map 118 having a setof linked payment device tokens having more than two payment devicetokens, the configuration of the linking between old payment devicetokens and new payment device tokens may vary. For example, the tokenmap 118 may have a set of payment device tokens (individually “PDT”),including a first and oldest payment device token (PDT₁), a second andnext oldest payment device token (PDT₂), and so forth, up to andincluding a second newest payment device token (PDT_(N)), and the newest(and active) payment device token (PDT_(Ω)). The set of payment devicetokens may be in a series configuration 202 (e.g., a “chain”), whereineach payment device token is linked to the next newest payment devicetoken, from PDT₁ to PDT₂, to PDT_(N), to PDT_(Ω). The set of paymentdevice tokens may also be in a parallel configuration 204, wherein eacholder payment device token is linked to the newest payment device token,such as PDT₁ and PDT₂ and PDT_(N) each linked to PDT_(Ω). The set ofpayment device tokens may also be in a combination of both seriesconfiguration 202 and parallel configuration 204, wherein some paymentdevice tokens are linked in series and others are linked in parallel.Many configurations are possible, and various storage space, usability,and search efficiency parameters may inform the structure of tokenlinking in the token map 118. In the depicted examples, althoughindefinite sets of size N+1 are shown, it will be appreciated thatPDT_(N) may be equivalent to PDT₂ for a three-element set.

With further reference to FIG. 1, and in further non-limitingembodiments or aspects, a number of steps may be executed in the system100 when fraudulent activity is detected for an old payment device 104,particularly to prevent fraudulent transactions from being passed on andconnected to the new payment device 106 that has replaced thecompromised old payment device 104. The token management server 114 mayreceive a notification of fraudulent activity associated with an oldpayment device 104. Such a fraud notification may be communicated to thetoken management server 114 by the transaction service provider system115, if configured with a fraud analysis/detection system, or from anissuer system 108 or other fraud-identifying entity. The tokenmanagement server 114 may then determine one or more old payment devicetokens associated with the old payment device 104 that has beencompromised. The token management server 114 may also identify any newerpayment device tokens linked to the old payment device tokens and modifystorage of the newer payment device tokens to deactivate links to theold payment device tokens of the compromised old payment device 104.

With further reference to FIG. 1, and specific reference to FIG. 2, infurther non-limiting embodiments or aspects, the token management server114 and/or transaction service provider system 115 may thereafterdecline any new transaction requests that include the old payment devicetokens associated with the compromised old payment device 104. For aseries configuration 202 of payment device tokens, the link from thecompromised old payment device token to newer payment device tokens maybe deactivated. For example, if PDT₂ is compromised, the link from PDT₂to PDT_(N) in configuration 202 may be removed or marked as invalid fortransactions. Older payment device tokens, not associated with thecompromised old payment device, may be pruned from the set of tokens(e.g., PDT₁ may be removed), or may be re-linked to the newer tokens(e.g., PDT₁ may be linked to PDT_(N) and PDT₂ may be flagged orremoved). For a parallel configuration 204 of payment device tokens, thelink from the compromised old payment device token to newer paymentdevice tokens may be deactivated (e.g., the link from PDT₂ to PDT_(N) inconfiguration 204 may be removed).

With further reference to FIG. 1, and in further non-limitingembodiments or aspects, a number of steps may be executed in the system100 when fraudulent activity is detected for the new payment device 106to prevent fraudulent transactions from being incurred on thecompromised new payment device 106. The token management server 114 mayreceive a notification of fraudulent activity associated with the newpayment device 106. Such a fraud notification may be communicated to thetoken management server 114 by the transaction service provider system115, if configured with a fraud analysis/detection system, or from anissuer system 108 or other fraud-identifying entity. The tokenmanagement server 114 may then determine one or more new payment devicetokens associated with the new payment device 106 that has beencompromised. The token management server 114 may also identify any olderpayment device tokens linked to the new payment device tokens and modifystorage of the older payment device tokens to deactivate one or morelinks to the new payment device tokens of the compromised new paymentdevice 106. Thereafter, replacement payment device tokens may begenerated to replace the new payment device tokens of the compromisednew payment device 106, and the replacement payment device tokens maylikewise be associated with a replacement payment device provided by theissuer 107.

With further reference to FIG. 1, and specific reference to FIG. 2, infurther non-limiting embodiments or aspects, the token management server114 and/or transaction service provider system 115 may thereafterdecline any new transaction requests that include the new payment devicetokens associated with the compromised new payment device 106. For aseries configuration 202 of payment device tokens, the new paymentdevice token (e.g., PDT_(Ω)) may be removed from the set and the secondnewest payment device token (e.g., PDT_(N)) may be re-linked to areplacement payment device token. Alternatively, all payment devicetoken links may be deactivated, and one or more payment device tokensmay be removed from the token map 118 altogether (e.g., remove PDT₁,PDT₂, PDT_(N), and PDT_(Ω), and inject replacement PDT). For a parallelconfiguration 204 of payment device tokens, the newest payment devicetoken (e.g., PDT_(Ω)) may be removed and the remaining payment devicetokens (e.g., PDT₁, PDT₂, and PDT_(N)) may be re-linked to a replacementdevice token. For the purposes of the above description of FIG. 2,“removing” a payment device token may refer to deleting the paymentdevice token from a token map or modifying the payment device token datato mark it as unusable, invalid, and/or the like. Furthermore,“deactivating” a link between two payment device tokens may refer toremoving a link, marking a link as unusable, invalid, and/or the like,or removing a payment device token of the linked tokens that isassociated with a compromised payment device.

With specific reference to FIG. 3, and in non-limiting embodiments oraspects, provided is a method 300 for updating and processing paymentdevice transaction tokens. One or more of the steps of method 300 may becarried out by one or more processors of a token management server, atransaction service provider system, an issuer system, another computingdevice, or any combination thereof. In step 302, the token managementserver receives an update request to update stored transactioninformation, e.g., a token map. The update request may identify at leastone old payment device and at least one new payment device. The updaterequest may be from an issuer system to designate a new payment deviceas replacing an old payment device, or may be initiated by a tokenholder or other transactional entity. In step 306, the token managementserver generates a new payment device token associated with the newpayment device of the update request. In step 310, the token managementserver links the generated new payment device token to one or more oldpayment device tokens. Steps 302, 306, and 310 may be repeated, as oldpayment devices are updated/replaced with new payment devices, toproduce a set of stored payment devices with multiple linked paymentdevices (see FIG. 2 for non-limiting embodiments or aspects of paymentdevice token linking). It will also be appreciated that the updaterequest may not identify old and new payment devices, but may insteadinclude an old payment device token that needs to be replaced. In such acircumstance, the token management server may simply generate a newpayment device token in step 306, and link the new payment device tokento the old payment device token in step 310. The token management servermay also then communicate the new payment device token that wasgenerated to the sender of the update request, e.g., the issuer system.Identifying the old payment device may also be done indirectly byanother identifier, such as a user identifier or account identifier, bywhich the old payment device may be ascertained.

With further reference to FIG. 3, and in further non-limitingembodiments or aspects, in step 314, the token management server ortransaction service provider system may receive a request to complete atransaction including an old payment device token, such as from a tokenholder, e.g., a merchant. In step 318, the token management server mayidentify the new payment device token by a link, or number of connectedlinks, to the old payment device token. In step 320, the tokenmanagement server or transaction service provider system may communicatethe identified new payment device token to the requester of thetransaction, to notify the requester that the old payment device tokenis outdated and to provide the active, new payment device token. In step322, the token management server or transaction service provider systemmay communicate the new payment device token and/or another paymentdevice identifier to an issuer system for processing of the transactionrequest. In such a manner, a token holder's payment device token may beupdated on an as-needed basis, and transaction requests are notautomatically denied because an old payment device token has beenreplaced with a new payment device token. A status of the old paymentdevice token, in step 322, may also be modified to prevent the oldpayment device token from being communicated to issuers (e.g., flaggedas deactivated” or “outdated”).

With further reference to FIG. 3, and in further non-limitingembodiments or aspects, step 302 may include an update request with aplurality of old tokens, wherein step 306 includes generating a newpayment device token for each old token, and step 310 includes linkingthe newly generated tokens to each respective old token. Moreover, anumber of new payment device tokens may be generated for a new paymentdevice. Each new payment device token may be associated with a differenttoken holder, and each new payment device token may be unique.

With specific reference to FIG. 4, and in non-limiting embodiments oraspects, provided is a method 400 for updating and processing paymentdevice transaction tokens. Method 400 may follow method 300 of FIG. 3,described above. Furthermore, one or more steps of method 400 may becarried out by one or more processors of a token management server, atransaction service provider system, an issuer, another computingdevice, or any combination thereof. In step 402, the token managementserver may receive a notification of fraudulent activity associated withan old payment device, from an issuer, the transaction service providersystem, a token holder, or other fraud-identifying entity. In step 404,the token management server may determine an old token associated withthe old payment device. Alternatively, the token management server, incombined steps 402 and 404, may receive a notice of fraudulent activityassociated with an old payment device token. In step 406, the tokenmanagement server may identify a new payment device token linked to theold payment device token. In step 408, the token management server maymodify storage of the new payment device token to deactivate a link tothe old token. The token management server may also remove the oldpayment device token from the token map. In step 410, the tokenmanagement server may receive and decline any new transaction requeststhat include the old payment device token. In step 412, the tokenmanagement server may notify those transaction requesters, e.g., tokenholders, that the old payment device token has beeninvalidated/deactivated. Because the old payment device token wasassociated with fraud, transaction requesters may not automatically beprovided with a new payment device token, and a user may be prompted tore-authorize token holders.

With specific reference to FIG. 5, and in non-limiting embodiments oraspects, provided is a method 500 for updating and processing paymentdevice transaction tokens. Method 500 may follow method 300 of FIG. 3,described above. Furthermore, one or more steps of method 500 may becarried out by one or more processors of a token management server, atransaction service provider system, an issuer, another computingdevice, or any combination thereof. In step 502, the token managementserver may receive a notification of fraudulent activity associated witha new payment device (e.g., a currently active payment device), from anissuer, the transaction service provider system, a token holder, orother fraud-identifying entity. In step 504, the token management servermay determine a new token associated with the new payment device.Alternatively, the token management server, in combined steps 502 and504, may receive a notice of fraudulent activity associated with a newpayment device token. In step 506, the token management server maymodify a status of the new payment device token to prevent the newpayment device token from being communicated to issuers. In step 508,the token management server may receive and decline any new transactionrequests that include the new payment device token. In step 509, thetoken management server may notify those transaction requesters, e.g.,token holders, that the new payment device token has been invalidated.Because the new payment device token was associated with fraud,transaction requesters may not automatically be provided with areplacement payment device token, and a user may be prompted tore-authorize token holders.

With further reference to FIG. 5, and in further non-limitingembodiments or aspects, in step 510, the token management server maycommunicate with the issuer of the new payment device, which has beencompromised, to receive replacement payment device data. If the tokenmanagement server is configured to store payment device tokens not inrelation to payment device data, the token management server may insteadprompt the issuer to issue a replacement payment device. In step 512,the token management server may generate a replacement payment devicetoken for the compromised new payment device token. In step 512, thetoken management server may also communicate the replacement paymentdevice token to the issuer of the replacement payment device. For tokenholders that are authorized by a user to receive the replacement paymentdevice token, the token management server may communicate thereplacement payment device token to token holders.

Although the disclosure has been described in detail for the purpose ofillustration based on what is currently considered to be the mostpractical and non-limiting embodiments or aspects, it is to beunderstood that such detail is solely for that purpose and that thedisclosure is not limited to the disclosed embodiments or aspects, but,on the contrary, is intended to cover modifications and equivalentarrangements that are within the spirit and scope of the appendedclaims. For example, it is to be understood that the present disclosurecontemplates that, to the extent possible, one or more features of anyembodiment or aspect can be combined with one or more features of anyother embodiment or aspect.

What is claimed is:
 1. A computer-implemented method comprising:receiving, with at least one processor, a first notification based onissuance of at least one first new payment device; in response toreceiving the first notification, generating, with at least oneprocessor, at least one first new token associated with the at least onefirst new payment device; linking, with at least one processor and in atleast one database, the at least one first new token to at least oneprevious token associated with at least one previously issued paymentdevice; receiving, with at least one processor, a second notificationbased on issuance of at least one second new payment device; in responseto receiving the second notification, generating, with at least oneprocessor, at least one second new token associated with the at leastone second new payment device; linking, with at least one processor andin the at least one database, the at least one second new token to theat least one first new token such that the at least one previous token,the at least one first new token, and the at least one second new tokenare serially linked in a chain of tokens; determining, with at least oneprocessor, to deactivate the at least one first new payment device; inresponse to determining to deactivate the at least one first new paymentdevice, modifying, with at least one processor and in the at least onedatabase, the chain to remove a first link from between the at least oneprevious token and the at least one first new token, to remove a secondlink from between the at least one first new token and the at least onesecond new token, and to link the at least one previous token to the atleast one second new token; receiving, with at least one processor, atransaction request comprising a token of the chain generated before theat least one second new token; and processing the transaction request bycommunicating, with at least one processor, the at least one second newtoken to an issuer.
 2. The method of claim 1, further comprisingmodifying, with at least one processor, a status of each token in thechain generated before the at least one second new token to prevent saideach token from being communicated to issuers.
 3. The method of claim 1,wherein determining to deactivate the at least one first new paymentdevice further comprises receiving, with at least one processor, atleast one notification of fraudulent activity associated with the atleast one first new payment device.
 4. The method of claim 1, whereinthe at least one previous token comprises a plurality of tokens, andwherein linking the at least one first new token to the at least oneprevious token further comprises linking the at least one first newtoken to each of the at least one previous token.
 5. The method of claim4, wherein each token in the chain is unique.
 6. The method of claim 1,further comprising declining, with at least one processor, each newtransaction request of at least one new transaction request thatcomprises the at least one first new token.
 7. The method of claim 1,further comprising: receiving, with at least one processor, anotification of fraudulent activity associated with the at least onesecond new payment device; modifying, with at least one processor in theat least one database, a status of the at least one second new token toprevent the at least one second new token from being communicated toissuers; and declining, with at least one processor, each newtransaction request of at least one new transaction request thatcomprises the at least one second new token.
 8. A system comprising aserver including at least one processor for executing programinstructions, the server being programmed or configured to: receive afirst notification based on issuance of at least one first new paymentdevice; in response to receiving the first notification, generate atleast one first new token associated with the at least one first newpayment device; link, in at least one database, the at least one firstnew token to at least one previous token associated with at least onepreviously issued payment device; receive a second notification based onissuance of at least one second new payment device; in response toreceiving the second notification, generate at least one second newtoken associated with the at least one second new payment device; link,in the at least one database, the at least one second new token to theat least one first new token so that the at least one previous token,the at least one first new token, and the at least one second new tokenare serially linked in a chain of tokens; determine to deactivate the atleast one first new payment device; in response to determining todeactivate the at least one first new payment device, modify, in the atleast one database, the chain to remove a first link from between the atleast one previous token and the at least one first new token, to removea second link from between the at least one first new token and the atleast one second new token, and to link the at least one previous tokento the at least one second new token; receive a transaction requestcomprising a token of the chain generated before the at least one secondnew token; and process the transaction request by communicating the atleast one second new token to an issuer.
 9. The system of claim 8,wherein the server is further programmed or configured to modify astatus of each token in the chain generated before the at least onesecond new token to prevent said each token from being communicated toissuers.
 10. The system of claim 8, wherein determining to deactivatethe at least one first new payment device further comprises receiving atleast one notification of fraudulent activity associated with the atleast one first new payment device.
 11. The system of claim 8, whereinthe at least one previous token comprises a plurality of tokens, andwherein linking the at least one first new token to the at least oneprevious token comprises linking the at least one first new token toeach of the at least one previous token.
 12. The system of claim 11,wherein each token in the chain is unique.
 13. The system of claim 8,wherein the server is further programmed or configured to decline eachnew transaction request of at least one new transaction requestcomprising the at least one first new token.
 14. The system of claim 8,wherein the server is further programmed or configured to: receive anotification of fraudulent activity associated with the at least onesecond new payment device; modify, in the at least one database, astatus of the at least one second new token to prevent the at least onesecond new token from being communicated to issuers; and decline eachnew transaction request of at least one new transaction request thatcomprises the at least one second new token.
 15. A computer programproduct comprising at least one non-transitory computer-readable mediumincluding program instructions that, when executed by at least oneprocessor, cause the at least one processor to: receive a firstnotification based on issuance of at least one first new payment device;in response to receiving the first notification, generate at least onefirst new token associated with the at least one first new paymentdevice; link, in at least one database, the at least one first new tokento at least one previous token associated with at least one previouslyissued payment device; receive a second notification based on issuanceof at least one second new payment device; in response to receiving thesecond notification, generate at least one second new token associatedwith the at least one second new payment device; link, in the at leastone database, the at least one second new token to the at least onefirst new token so that the at least one previous token, the at leastone first new token, and the at least one second new token are seriallylinked in a chain of tokens; determine to deactivate the at least onefirst new payment device; in response to determining to deactivate theat least one first new payment device, modify, in the at least onedatabase, the chain to remove a first link from between the at least oneprevious token and the at least one first new token, to remove a secondlink from between the at least one first new token and the at least onesecond new token, and to link the at least one first new token to the atleast one second new token; receive a transaction request comprising atoken of the chain generated before the at least one second new token;and process the transaction request by communicating the at least onesecond new token to an issuer.
 16. The computer program product of claim15, wherein the program instructions further cause the at least oneprocessor to modify a status of each token in the chain generated beforethe at least one second new token to prevent said each token from beingcommunicated to issuers.
 17. The computer program product of claim 15,wherein determining to deactivate the at least one first new paymentdevice further comprises receiving at least one notification offraudulent activity associated with the at least one first new paymentdevice.
 18. The computer program product of claim 15, wherein the atleast one previous token comprises a plurality of tokens, whereinlinking the at least one first new token to the at least one previoustoken comprises linking the at least one first new token to each of theat least one previous token, and wherein each token in the chain isunique.
 19. The computer program product of claim 15, wherein theprogram instructions further cause the at least one processor to declineeach new transaction request of at least one new transaction requestthat comprises the at least one first new token.
 20. The computerprogram product of claim 15, wherein the program instructions furthercause the at least one processor to: receive a notification offraudulent activity associated with the at least one second new paymentdevice; modify, in the at least one database, a status of the at leastone second new token to prevent the at least one new second token frombeing communicated to issuers; and decline each new transaction requestof at least one new transaction request that comprises the at least onesecond new token.